BL 3-11-14 8-9AM VASCULITIS-Janson_Hirsh

Question 1

Vasculitis

Answer 1

= a heterogeneous group of clinical disorders characterized by inflammation of blood vessels

• inflammation may involve arteries of any size
• -> spectrum of clinical & pathologic features

Question 2

Terminology/Classification of Vasculitis

Answer 2

Can be based on:

• size of vessel involved (Chapel Hill Classification)
• type of pathologic change in vessel wall
• clinical presentation

May be…

• Primary
• Secondary

Question 3

Vasculitis may be secondary to…

Answer 3

• infectious disorders like Hep B/C & endocarditis
• drug hypersensitivity
• CT diseases (RA, SLE, Sjögren’s)
• Cryoglobulins
• Malignancies

Question 4

Large-vessel vasculitis - Types

Answer 4

Giant cell arteritis

Takayasu’s arteritis

Question 5

Giant cell arteritis - Location

Answer 5

Inflammation usually in …

• temporal arteries
• vessels originating from aortic arch

Question 6

Giant cell arteritis - symptoms/manifestations

Answer 6

• temporal headache
• jaw claudication
• scalp tenderness
• visual loss
• giant cell arteritis w/ disruption of internal elastic lamina

Question 7

Takayasu’s arteritis - Location

Answer 7

Inflammation usually in:

• aortic arch & its branches
• any part of the aorta

Question 8

Takayasu’s arteritis - Symptoms / Manifestations

Answer 8

• claudication of upper > lower extremities
• CNS events
• granulomatous panarteritis

Question 9

Medium-vessel vasculitis - Types

Answer 9

Polyarteritis nodosa

Kawasaki’s disease

Question 10

Polyarteritis nodosa - location (vessels & organs)

Answer 10

• small & medium-sized arteries

- may affect any organ, but skin, joints, peripheral nerves, gut, & kidney are most commonly involved

Question 11

Polyarteritis nodosa - manifestation

Answer 11

• focal but panmural necrotizing arteritis

- predilection for involvement at vessel bifurcation

Question 12

Kawasaki’s disease - location (vessels) & usual age group & cause

Answer 12

• small and medium-sized arteries
• acute febrile illness primarily affecting infants & young children
• probable infectious vector resulting in cytokine-mediated endothelial damage

Question 13

Kawasaki’s disease

Answer 13

Fever
Prominent mucocutaneous changes
Cervical lymphadenopathy
Polymorphous rash
Erythema & Edema of hands & feet
Desquamation
Myocarditis
Coronary vasculitis

Question 14

Small-vessel vasculitis - two big groups

Answer 14

1. Antineutrophil cytoplasmic antibody (ANCA) positive vasculitides:
2. Antineutrophil cytoplasmic antibody (ANCA) negative vasculitides

Question 15

Antineutrophil cytoplasmic antibody (ANCA) positive vasculitides:

Answer 15

• small cell vasculitis

Types:

• Granulomatosis with polyangiitis (Wegener’s) (GPA)
• Eosinophilic granulomatosis with polyangiitis (Churg-Strauss)
• Microscopic polyangiitis (MPA)

Question 16

Antineutrophil cytoplasmic antibody (ANCA) negative vasculitides

Answer 16

• small cell vasculitis

Types:

• Henoch-Schönlein Purpura (HSP)
• Essential cryoglobulinemic vasculitis
• Cutaneous leukocytoclastic angiitis

Question 17

Granulomatosis with polyangiitis (Wegener’s)

Answer 17

= pauci-immune, necrotizing, granulomatous arteritis usually associated w/ serum cytoplasmic-ANCA (c-ANCA +)

• small & medium-sized arteries
• URI (sinuses), lungs, & kidneys (+other organs)

Question 18

Eosinophilic granulomatosis with polyangiitis (Churg-Strauss)

Answer 18

• necrotizing extravascular granulomas & vasculitis of small arteries/venules
• associated with +ANCA
• asthma
• eosinophilia (present at early stage)
• multiorgan involvement (lungs, skin, peripheral nerves, gut, heart, renal (rare))

Question 19

Microscopic polyangiitis (MPA)

Answer 19

• pauci-immune, necrotizing vasculitis, serum perinuclear-ANCA (p-ANCA) + common
• arterioles, capillaries, & venules
• –> pulmonary hemorrhage
• –> glomerulonephritis
• –> palpable purpura
• –> peripheral neuropathy
• –> joint & abdominal pain

Question 20

Henoch-Schönlein Purpura (HSP)

Answer 20

Leukocytoclastic (neutrophilic perivascular / transmural infiltrate)
OR
Necrotizing vasculitis

• often w/ IgA deposition
• ANCA NEGATIVE vasculitides of small vessels
• -> palpable purpuric skin lesions lower extremities
• -> arthritis
• -> abdominal pain
• -> hematuria

Question 21

Essential cryoglobulinemic vasculitis

Answer 21

• a small-vessel vasculitis
  Cryoglobulins = Igs reversibly precipitated by reduced temperatures
  —> deposited in small vessels including glomerulocapillaries
  —> stimulate complement activation & cellular inflammatory response
• -> purpura
• -> arthralgias
• -> weakness
• -> peripheral neuropathy
• -> Raynaud’s phenomenon
• -> glomerulonephritis
• -> pulmonary hemorrhage possible
• Often rheumatoid factor & HepC Ab +
• ANCA negative

Question 22

Cutaneous leukocytoclastic angiitis

Answer 22

• ANCA negative vasculitides (small-vessel)
• arterioles & venules
• -> palpable purpuric skin lesions
• -> arthralgias
• -> systemic symptoms may be present, usually secondary to immune response [drugs, bugs, CT disease, malignancy
• -> leukocytoclastic vasculitis

Question 23

Signs/Symptoms of Vasculitis

Answer 23

Found, to some extent, in all systemic vasculitides

• skin lesions
• constitutional symptoms (fever, anorexia, weight loss, weakness, fatigue)
• MSK symptoms (arthralgias, arthritis, myalgias, peripheral neuropathy)

Question 24

Laboratory features of Vasculitis

Answer 24

Reflect systemic inflammation.

• Anemia of inflammatory disease
• Thrombocytosis
• Low albumin
• Elevated ESR & CRP
• Polyclonal gammopathy
• Possibly elevated liver enzyme tests, low complement levels, cryoglobulins

Question 25

Diagnosis of Vasculitis

Answer 25

Hx & PE to determine extent of organ involvement

Serum autoAbs (RF, ANA, ANCA)

Biopsy of affected organ

If biopsy inaccessible, angiogram to show:

• segments of smooth arterial stenosis alternating w/ areas of normal or dilated artery
• tapered occlusions
• thrombosis

Question 26

Vasculitis - Incidence

Answer 26

Rare group of disorders

Mean age of onset in 5th decade
- but, can occur at extremes of age

About equal in sex distribution
- except for female predominance in Takayasu’s & giant cell arteritis

Question 27

Vasculitis - Ethnic associations

Answer 27

Can occur in any population

Higher incidence of Takayasu’s arteritis in Japanese & Asian populations

Higher incidence of giant cell arteritis in populations of N. European background & in northern latitudes

Question 28

Amount of vessel involvement in vasculitis

Answer 28

Considerable overlap exists in patterns of pathologic involvement in vasculitic syndromes.

• Tend to be both focal & segmental lesions
• Entire circumference of vessel may not be involved

Question 29

Pathology of Large & Medium vessel vasculitis (cell infiltrate, effects on vessels etc.)

Answer 29

Typically panarteritis

Infiltration through vessel wall, to varying degrees, of:

• lymphocytes
• monocytes
• histiocytes
• eosinophils
• -> Can be associated w/ granuloma or giant cell formation in some disorders
• -> Disruption of elastic lamina: intimal thickening results in narrowing/obliteration of vessel lumen

Question 30

Pathology of Small vessel vasculitis

Answer 30

“Leukocytoclastic” vasculitis
= necrotizing vasculitis w/ PMN-derived nuclear debris that often accompanies neutrophilic perivascular infiltration of vessel wall

–> typically fibrinoid necrosis of vessel wall w/ transmural inflammatory rxn

Often find Immunoglobulin (IgM, IgA in HSP) & Complement (C3) vascular deposition in vasculitic lesions

Question 31

Suspected Pathophysiologic Mechanisms for Vasculitis

Answer 31

1. Immune Complexes (IC)
2. Antineutrophil Cytoplasmic Antibodies (ANCA)
3. Antiendothelial Antibodies
4. T cell-dependent Mediated Endothelial Cell Injury
5. Infection of Endothelial Cells

Question 32

Immune Complexes in Vasculitis

Answer 32

Several pieces of evidence suggest IC’s as able to instigate vasculitis:

Human serum sickness from horse Ig (anti-venoms)

Hepatitis B surface antigen & IgM in arterial wall of pt w/ polyarteritis nodosa

Animal models of serum sickness

• PAF & other vasoactive mediators released in inflammatory/cytokine response probably induce vascular permeability
• -> deposition of circulating IC at vascular endothelium, activation of complement, attraction of PMNs

May be involved in hypersensitivity vasculitis, HSP, cryoglobulinemia, & Hep B–associated vasculitis

Question 33

Antineutrophil Cytoplasmic Antibodies (ANCA) in Vasculitis - Staining

Answer 33

= Abs to Ags found in cytoplasm of neutrophils

Cytoplasmic staining (c-ANCA)

• in granulomatosis w/ polyangiitis
• binds to proteinase 3 (PR3) found in primary granules of PMN

Perinuclear staining (p-ANCA)

• in microscopic polyangiitis
• binds to myeloperoxidase (MPO), another primary granule constituent which migrates to perinuclear area w/ alcohol fixation of PMNs

Question 34

Antineutrophil Cytoplasmic Antibodies (ANCA) in Vasculitis - Mechanism

Answer 34

Inflammatory cytokines
activate PMNs to release & express PR3 & MPO on cell surface

Binding of ANCA to neutrophil cell surface leads to further neutrophil activation & possibly enhanced binding to vascular endothelial cells
—> resultant vascular damage

PR3 & MPO also found on surface of activated endothelial cells.

ANCA may not be essential for initiating vasculitis, but may amplify inflammatory vascular response

Question 35

Antiendothelial antibodies in Vasculitis

Answer 35

= demonstrated in several autoimmune & vasculitic diseases
- In vitro, can damage endothelial cells by both antibody-dependent cellular cytotoxicity (ADCC) & complement activation mechanisms.

These Abs directed toward structures on surface of endothelial cells not found in all vasculitic syndromes :(

Question 36

T Cell Dependent Mediated Endothelial Cell Injury in Vasculitis

Answer 36

-T-cell responses in initiation & perpetuation of vascular injury have been suggested in Takayasu’s, granulomatosis w/ polyangiitis, & giant cell arteritis.

Giant cell arteritis:
- over-representation of HLA-DR4 haplotype
= sequence polymorphism w/in hypervariable region 2 of HLA-DRB1 gene (probable Ag-binding element of HLA-DR molecule)
—> suggests Ag-driven vascular inflammation

This polymorphism is not shared by patients w/ rheumatoid arthritis.

Question 37

Infection of Endothelial Cells in Vasculitis

Answer 37

• Many infectious agents can infect endothelial cells

Infected endothelial cells:

• promote binding of IC & PMNs to endothelium
• express MHC class II genes
• enhance local lymphocyte proliferation
• release stimulatory & proliferative cytokines

These changes may promote vascular inflammatory response & initiate T cell proliferative response

Question 38

Treatment as Relates to Pathophysiology of Vasculitis

Answer 38

Treat / remove inciting agent or Ag :

• drugs
• infections – endocarditis, hepatitis B & C

Treatment determined by pathogenic process, extent of inflammation & vascular involvement, and rate of progression of disease

Glucocorticoids –> control inflammatory features

High dose glucocorticoids + cytotoxic drug (cyclophosphamide)
–> for rapidly progressive disease w/ significant major organ involvement (lung, kidney, gut)

Plasmapheresis
- in hepatitis C-induced cryoglobulinemia & ANCA-positive vasculitides

Rituximab

• anti-CD20 B cell mAb
• efficacious for severe ANCA-associated vasculitis

Question 39

Vasculitis - Primary vs. Secondary inciting agents

Answer 39

Primary: inciting agent unknown

Secondary: inciting agent may be…

• IC deposition
• autoantibodies (anti-endothelial, ANCAs)
• antigen-driven inflammation
• infection of endothelial cells